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Method for starting up a wind energy plant after an operation stoppage and wind energy plant which can execute the method

a technology of wind energy plant and operation stoppage, which is applied in the direction of non-positive displacement fluid engine, liquid fuel engine components, material dimension control, etc., can solve the problems of operation stoppage, drive train components are often only insufficiently lubricated, and drive train components are subject to an increased wear and tear, so as to increase the life of the drive train. the effect of the componen

Inactive Publication Date: 2010-10-05
NORDEX ENERGY SE & CO KG
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0009]The present invention is based on the finding that the obtainable lifetime of the drive train components can be prolonged through a gentle start-up of the wind energy plant in particular. The reason for this is that the drive train components are often only insufficiently lubricated after an operation stoppage, as long as the lubricant for the gearbox has not reached a certain operation temperature. In this period of time, the drive train components are subject to an increased wear. This is the case for arbitrary drive train components which need sufficient lubrication, for instance for the gearbox, individual gearbox steps, individual gearwheels or bearings. At low oil temperatures, the gearbox itself is also cooled down. When the wind energy plant is started up again in this state and high torques or powers are to be transmitted, individual components of the gearbox or individual gearbox assembly parts can warm up at different speeds. Through this, tensions and strains between the components may occur, which can result in a higher wear.
[0012]This procedure results in a limitation of the mechanical strain of the drive train components, which is adapted to the actually present lubricating capability of the lubricant or the warm-up condition of the monitored gearbox component. The strains actually acting on the drive train components are limited by this, such that they do not lead to excessive wear at the given lubricating efficiency. Through this, the obtainable lifespan of the drive train components is prolonged.
[0020]In a further embodiment of the method, the maximum value BMax has an initial value BF when the wind energy plant is started up. Thus, there is no limitation of the desired value BS to values below the minimum value preset by the initial value BF. As a consequence, a minimum strain of the drive train components corresponding to this initial value BF is permitted, irrespective of the temperature of the lubricant or of the gearbox component, respectively. Through this, an excessive limitation of the operational variable B is avoided.
[0024]In a further embodiment, the wind energy plant is started up only when a minimum value Bmin of the operational variable B significant for the strain of the gearbox is to be expected. On its part, the minimum value BMin can be preset to depend on the temperature. However, it may also have a fixed value, which is independent of the temperature. The value BMin can be selected such that the strains of the drive train components occurring at this value of the operational variable result in a reliable joint rotation of all the bearing components at the given lubricating capability of the lubricants. Otherwise, at small strains an increased wear of bearing components not already working reliably at these strains may occur. Thus, this realisation contributes also to an increased life of the drive train components.
[0025]In a further embodiment, it is not fallen below a minimum value BMin of the operational variable B significant for the strain of the gearbox when the wind energy plant is started up. When the operational variable B significant for the strain of the gearbox falls down to a value below the minimum value BMin, the start-up can be stopped. For instance, in the case of decreasing wind velocities after the beginning of the start-up, it is ascertained by stopping the start-up that no increased wear due to stuck bearing elements occurs.

Problems solved by technology

The operation stoppage can be caused through a stand-still or a spinning operation of the wind energy plant due to low wind velocities, maintenance works, a cut-off of the wind energy plant due to an external command or due to another deviation from the normal grid supply operation of the wind energy plant.
The reason for this is that the drive train components are often only insufficiently lubricated after an operation stoppage, as long as the lubricant for the gearbox has not reached a certain operation temperature.
In this period of time, the drive train components are subject to an increased wear.
Through this, tensions and strains between the components may occur, which can result in a higher wear.

Method used

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  • Method for starting up a wind energy plant after an operation stoppage and wind energy plant which can execute the method
  • Method for starting up a wind energy plant after an operation stoppage and wind energy plant which can execute the method
  • Method for starting up a wind energy plant after an operation stoppage and wind energy plant which can execute the method

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Embodiment Construction

[0032]While this invention may be embodied in many different forms, there are described in detail herein a specific preferred embodiment of the invention. This description is an exemplification of the principles of the invention and is not intended to limit the invention to the particular embodiment illustrated

[0033]On the abscissa of the coordinate system shown in FIG. 1, the temperature of a lubricant for the gearbox of a wind energy plant is plotted. In the example, the temperature is based on a measured value, which is measured with a suitable temperature transmitter in an oil pan of the gearbox. On the ordinate of the coordinate system, the electric power P provided by the wind energy plant is indicated. On the basis of the relation depicted in the diagram, one maximum value of the power BMax is assigned to each temperature T, which is used for the limitation of the desired value PS of the power. Further, a minimum value PMin of the power is drawn in, which represents a lower l...

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Abstract

A method for starting up a wind energy plant after an operation stoppage, wherein the wind energy plant has a gearbox in the drive train and an operation management which can control at least one operational variable significant for the strain of the gearbox B of the wind energy plant to a desired value BSoll, wherein after the operation stoppage, the desired value BSoll is limited by a maximum value BMax, which is preset depending on a measured temperature of a gearbox component and / or of a lubricant for the gearbox.

Description

CROSS-REFERENCE TO RELATED APPLICATIONS[0001]Not applicable.STATEMENT REGARDING FEDERALLY SPONSORED RESEARCH[0002]Not applicable.BACKGROUND OF THE INVENTION[0003]The present invention is related to a method for starting up a wind energy plant after an operation stoppage, and a wind energy plant which can execute the method.[0004]Wind energy plants have a drive train for the transmission of the torque of a rotor of the wind energy plant driven by the wind to a generator which provides electric energy. In the most frequent construction, the generator is operated at a rotational speed which is substantially higher than that of the rotor, so that a step-down gearbox is needed in the drive train. Such gearboxes are normally realised with two or three steps and have a number of gearings in engagement with each other. All the components of such a drive train are exposed to high mechanical strains, the gearings of the gearbox in particular are strongly strained by the high torques of the ro...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): G05D23/00H02P9/04F03D9/00
CPCF03D7/026F03D11/0008F16H35/10F05B2260/85F05B2270/1033F05B2270/109F05B2270/303Y02E10/722Y02E10/723F03D80/70Y02E10/72
Inventor NITZPON, JOACHIMKARSTENS, HAUKEHARMS, ULRICH
Owner NORDEX ENERGY SE & CO KG
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